Starlink G6-96 Pre-LaunchDerived from a pre-launch Starlink-G6-96 state vector, provided by SpaceX. SupGP data is provided for the entire stack, as well as one for a single satellite. Launch: 2026-01-09 21:41:00 UTC.Deploy: 2026-01-09 22:46:07.180 UTC.
January 12, 2026 17:42 - 21:42 UTCStarlink MissionSpaceX’s Falcon 9 is targeting the launch of 29 Starlink satellites to low-Earth orbit from Space Launch Complex 40 (SLC-40) at Cape Canaveral Space Force Station in Florida.
Starlink G6-97 Pre-LaunchDerived from a pre-launch Starlink-G6-97 state vector, provided by SpaceX. SupGP data is provided for the entire stack, as well as one for a single satellite.Launch: 2026-01-12 17:42:00 UTC.Deploy: 2026-01-12 18:47:07.160 UTC.Launch window: 2026-01-12 17:42:00 UTC to 2026-01-12 21:42:00 UTC.
Blue Origin/NS-38Liftoff Time (UTC)01:30:00 PMWednesday January 21, 2026Planned Liftoff01:30 PM Window Open09:30 PM Window Close
SpaceX/Starship Flight 12Liftoff TimeNo Earlier Than 1st Quarter, 2026... PlannedStarship-Super Heavy v3...ReuseUnknown RecoveryShip 39Ship 39 vehicleUnknown RecoveryBooster 19
SpaceX @SpaceXDeployment of 29 @Starlink satellites confirmed
2027Rideshare:January - StarBurst - TBD - TBD
The small satellite is now awaiting instrument calibration following a successful integration in Canada and rigorous testing by engineers at the agency’s Marshall Space Flight Center in Huntsville, Alabama.[...]Integration teams intend to have StarBurst launch-ready by June 2026. NASA plans to launch the satellite as early as 2027 during the next run of the Laser-Interferometer Gravitational Wave Observatory to maximize the chance of detecting gamma-ray bursts that coincide with gravitational wave events.
January 18, 2026 22:04 - January 19, 2026 02:04 UTСStarlink MissionSpaceX’s Falcon 9 is targeting the launch of 29 Starlink satellites to low-Earth orbit from Space Launch Complex 40 (SLC-40) at Cape Canaveral Space Force Station in Florida.
MISSIONLAUNCH DATECarryall Block 1 Q1 2027Carryall Block 1Q4 2027Carryall Block 1Q2 2028Carryall Block 1Q3 2028Carryall Block 2Q4 2028Carryall Block 32029Carryall Block 32030
Aeronix has developed small satellites for USSOCOM PEO Tactical Information Systems (TIS) which are scheduled to launch in April 2026.
The next SpaceX Falcon 9 rocket will launch a Starlink batch from pad 40 on January 14 at 1:01-5:01 p.m. EST. A Falcon 9 will launch a Starlink batch from pad 40 on January 18 at 5:04-9:04 p.m. EST. Upcoming launches include more Falcons from pad 40. A Falcon 9 will launch Crew-12 to the International Space Station from pad 40 on early-mid February, around sunrise EST. The first stage will land back at the Cape about eight minutes after launch.
Launch opportunities shift:https://celestrak.org/NORAD/elements/supplemental/Supplemental GP Element SetsCurrent as of 2026 Jan 13 22:42:34 UTC (Day 013)QuoteStarlink G6-98 Pre-Launch Derived from a pre-launch Starlink-G6-98 state vector, provided by SpaceX. SupGP data is provided for the entire stack, as well as one for a single satellite.Launch: 2026-01-14 18:08:20 UTC.Deploy: 2026-01-14 19:13:18.280 UTC.Launch window: 2026-01-14 18:08:20 UTC to 2026-01-14 18:19:49 UTC.Backup Launch Opportunity #1 Launch: 2026-01-14 18:22:20 UTC.Deploy: 2026-01-14 19:27:18.280 UTC.Launch window: 2026-01-14 18:22:20 UTC to 2026-01-14 18:35:39 UTC.Backup Launch Opportunity #2 Launch: 2026-01-14 18:35:40 UTC.Deploy: 2026-01-14 19:40:38.280 UTC.Launch window: 2026-01-14 18:35:40 UTC to 2026-01-14 18:39:19 UTC.Backup Launch Opportunity #3 Launch: 2026-01-14 19:46:20 UTC.Deploy: 2026-01-14 20:51:18.280 UTC.Launch window: 2026-01-14 19:46:20 UTC to 2026-01-14 19:46:59 UTC.Backup Launch Opportunity #4 Launch: 2026-01-14 19:47:00 UTC.Deploy: 2026-01-14 20:51:58.280 UTC.Launch window: 2026-01-14 19:47:00 UTC to 2026-01-14 19:54:19 UTC.Backup Launch Opportunity #5 Launch: 2026-01-14 19:59:10 UTC.Deploy: 2026-01-14 21:04:08.280 UTC.Launch window: 2026-01-14 19:59:10 UTC to 2026-01-14 19:59:19 UTC.Backup Launch Opportunity #6 Launch: 2026-01-14 20:00:10 UTC.Deploy: 2026-01-14 21:05:08.280 UTC.Launch window: 2026-01-14 20:00:10 UTC to 2026-01-14 20:01:19 UTC.Backup Launch Opportunity #7 Launch: 2026-01-14 20:01:20 UTC.Deploy: 2026-01-14 21:06:18.280 UTC.Launch window: 2026-01-14 20:01:20 UTC to 2026-01-14 20:15:39 UTC.Backup Launch Opportunity #8 Launch: 2026-01-14 20:15:40 UTC.Deploy: 2026-01-14 21:20:38.280 UTC.Launch window: 2026-01-14 20:15:40 UTC to 2026-01-14 20:22:49 UTC.Backup Launch Opportunity #9 Launch: 2026-01-14 20:23:40 UTC.Deploy: 2026-01-14 21:28:38.280 UTC.Launch window: 2026-01-14 20:23:40 UTC to 2026-01-14 20:24:09 UTC.Backup Launch Opportunity #10 Launch: 2026-01-14 21:25:20 UTC.Deploy: 2026-01-14 22:30:18.280 UTC.Launch window: 2026-01-14 21:25:20 UTC to 2026-01-14 21:26:59 UTC.
Starlink G6-98 Pre-Launch Derived from a pre-launch Starlink-G6-98 state vector, provided by SpaceX. SupGP data is provided for the entire stack, as well as one for a single satellite.Launch: 2026-01-14 18:08:20 UTC.Deploy: 2026-01-14 19:13:18.280 UTC.Launch window: 2026-01-14 18:08:20 UTC to 2026-01-14 18:19:49 UTC.Backup Launch Opportunity #1 Launch: 2026-01-14 18:22:20 UTC.Deploy: 2026-01-14 19:27:18.280 UTC.Launch window: 2026-01-14 18:22:20 UTC to 2026-01-14 18:35:39 UTC.Backup Launch Opportunity #2 Launch: 2026-01-14 18:35:40 UTC.Deploy: 2026-01-14 19:40:38.280 UTC.Launch window: 2026-01-14 18:35:40 UTC to 2026-01-14 18:39:19 UTC.Backup Launch Opportunity #3 Launch: 2026-01-14 19:46:20 UTC.Deploy: 2026-01-14 20:51:18.280 UTC.Launch window: 2026-01-14 19:46:20 UTC to 2026-01-14 19:46:59 UTC.Backup Launch Opportunity #4 Launch: 2026-01-14 19:47:00 UTC.Deploy: 2026-01-14 20:51:58.280 UTC.Launch window: 2026-01-14 19:47:00 UTC to 2026-01-14 19:54:19 UTC.Backup Launch Opportunity #5 Launch: 2026-01-14 19:59:10 UTC.Deploy: 2026-01-14 21:04:08.280 UTC.Launch window: 2026-01-14 19:59:10 UTC to 2026-01-14 19:59:19 UTC.Backup Launch Opportunity #6 Launch: 2026-01-14 20:00:10 UTC.Deploy: 2026-01-14 21:05:08.280 UTC.Launch window: 2026-01-14 20:00:10 UTC to 2026-01-14 20:01:19 UTC.Backup Launch Opportunity #7 Launch: 2026-01-14 20:01:20 UTC.Deploy: 2026-01-14 21:06:18.280 UTC.Launch window: 2026-01-14 20:01:20 UTC to 2026-01-14 20:15:39 UTC.Backup Launch Opportunity #8 Launch: 2026-01-14 20:15:40 UTC.Deploy: 2026-01-14 21:20:38.280 UTC.Launch window: 2026-01-14 20:15:40 UTC to 2026-01-14 20:22:49 UTC.Backup Launch Opportunity #9 Launch: 2026-01-14 20:23:40 UTC.Deploy: 2026-01-14 21:28:38.280 UTC.Launch window: 2026-01-14 20:23:40 UTC to 2026-01-14 20:24:09 UTC.Backup Launch Opportunity #10 Launch: 2026-01-14 21:25:20 UTC.Deploy: 2026-01-14 22:30:18.280 UTC.Launch window: 2026-01-14 21:25:20 UTC to 2026-01-14 21:26:59 UTC.
From CADENA OIS:Primary Launch Day 25 JAN 1517Z-2000ZBackup Launch Day 26 JAN 1517Z-2000ZBackup Launch Day 27 JAN 1517Z-2000ZBackup Launch Day 28 JAN 1517Z-2000ZBackup Launch Day 29 JAN 1517Z-2000ZBackup Launch Day 30 JAN 1517Z-2000ZBackup Launch Day 31 JAN 1517Z-2000Z
https://www.spacex.com/launches/sl-17-20QuoteSpaceX’s Falcon 9 is targeting the launch of 24 Starlink satellites to low-Earth orbit from Space Launch Complex 4 East (SLC-4E) from Vandenberg Space Force Base in California.A live webcast of this mission will begin about five minutes prior to liftoff, which you can watch here and on X @SpaceX. You can also watch the webcast on the X TV app.This is the 13th flight for the first stage booster supporting this mission, which previously launched NROL-126, Transporter-12, SPHEREx, NROL-57, and eight Starlink missions. Following stage separation, the first stage will land on the Of Course I Still Love You droneship, which will be stationed in the Pacific Ocean.There is the possibility that residents of Santa Barbara, San Luis Obispo, and Ventura counties may hear one or more sonic booms during the launch, but what residents experience will depend on weather and other conditions.Launch January 25, 15:17 to 19:17 UTCB1088-13
SpaceX’s Falcon 9 is targeting the launch of 24 Starlink satellites to low-Earth orbit from Space Launch Complex 4 East (SLC-4E) from Vandenberg Space Force Base in California.A live webcast of this mission will begin about five minutes prior to liftoff, which you can watch here and on X @SpaceX. You can also watch the webcast on the X TV app.This is the 13th flight for the first stage booster supporting this mission, which previously launched NROL-126, Transporter-12, SPHEREx, NROL-57, and eight Starlink missions. Following stage separation, the first stage will land on the Of Course I Still Love You droneship, which will be stationed in the Pacific Ocean.There is the possibility that residents of Santa Barbara, San Luis Obispo, and Ventura counties may hear one or more sonic booms during the launch, but what residents experience will depend on weather and other conditions.
U.S. Space Force switches rockets for upcoming GPS satellite launch [Jan 13]QuoteSpaceX could launch the GPS III Space Vehicle 09 (SV09) within the next few weeks, as the satellite was entering the final stages of pre-flight preparations. As part of the swap, United Launch Alliance (ULA) will instead launch the third of the next generation of Global Positioning System satellites. The GPS III Follow-on (GPS IIIF) SV13 satellite was originally scheduled to launch on a Falcon Heavy, but will now fly on Vulcan.“SV09 and SV13 were traded between ULA and SpaceX to get capability to orbit as soon as possible, for the same reason as the prior swap, which resulted in the last GPS launch in May 2025,” the spokesperson said in a statement. “The trade results in an overall net cost savings to the government and again demonstrates our sustained commitment to moving at speed to deliver combat-credible capabilities on orbit to meet warfighter needs.”
SpaceX could launch the GPS III Space Vehicle 09 (SV09) within the next few weeks, as the satellite was entering the final stages of pre-flight preparations. As part of the swap, United Launch Alliance (ULA) will instead launch the third of the next generation of Global Positioning System satellites. The GPS III Follow-on (GPS IIIF) SV13 satellite was originally scheduled to launch on a Falcon Heavy, but will now fly on Vulcan.“SV09 and SV13 were traded between ULA and SpaceX to get capability to orbit as soon as possible, for the same reason as the prior swap, which resulted in the last GPS launch in May 2025,” the spokesperson said in a statement. “The trade results in an overall net cost savings to the government and again demonstrates our sustained commitment to moving at speed to deliver combat-credible capabilities on orbit to meet warfighter needs.”
Info from Intuitive Machines' Q3 2025 quarterly 10-Q filing.They haven't officially pushed the launch to H2 2026 yet but they expect that they will need to in order to align with adding the Near Space Network Services (NSNS) contract satellite.QuoteOur IM-3 mission contract for lunar payload services became a loss contract in 2021 due to estimated contract costs exceeding the estimated amount of consideration that we expected to receive. For the nine months ended September 30, 2025 and 2024, changes in estimated contract costs resulted in an additional $19.6 million and $9.9 million in contract loss, respectively. The increase in estimated contract costs was primarily driven by the alignment of the mission schedule with the completion of an internally-developed satellite to be placed in lunar orbit to meet NSNS contract obligations. The period of performance for this contract currently runs through June 2026. However, these efforts are expected to extend the mission launch window to the second half of 2026. As of September 30, 2025, this contract was approximately 80% complete. As of September 30, 2025 and December 31, 2024, the contract loss provision recorded in contract liabilities, current was $7.9 million and $7.0 million, respectively, and $0.4 million and zero, respectively, in contract liabilities, non-current in our condensed consolidated balance sheets.
Our IM-3 mission contract for lunar payload services became a loss contract in 2021 due to estimated contract costs exceeding the estimated amount of consideration that we expected to receive. For the nine months ended September 30, 2025 and 2024, changes in estimated contract costs resulted in an additional $19.6 million and $9.9 million in contract loss, respectively. The increase in estimated contract costs was primarily driven by the alignment of the mission schedule with the completion of an internally-developed satellite to be placed in lunar orbit to meet NSNS contract obligations. The period of performance for this contract currently runs through June 2026. However, these efforts are expected to extend the mission launch window to the second half of 2026. As of September 30, 2025, this contract was approximately 80% complete. As of September 30, 2025 and December 31, 2024, the contract loss provision recorded in contract liabilities, current was $7.9 million and $7.0 million, respectively, and $0.4 million and zero, respectively, in contract liabilities, non-current in our condensed consolidated balance sheets.
Starlink G6-98 Pre-Launch Derived from a pre-launch Starlink-G6-98 state vector, provided by SpaceX. SupGP data is provided for the entire stack, as well as one for a single satellite.✅️ Launch: 2026-01-14 18:08:20 UTC.Deploy: 2026-01-14 19:13:18.280 UTC.
It's back:https://www.spacex.com/launches/sl-10-36QuoteSpaceX’s Falcon 9 is targeting the launch of 29 Starlink satellites to low-Earth orbit from Space Launch Complex 40 (SLC-40) at Cape Canaveral Space Force Station in Florida.A live webcast of this mission will begin about five minutes prior to liftoff, which you can watch here and on X @SpaceX. You can also watch the webcast on the X TV app.This will be the 10th flight for the first stage booster supporting this mission, which previously launched SES O3b mPOWER-E, Crew-10, Bandwagon-3, mPOWER-D, CRS-33, and four Starlink missions. Following stage separation, the first stage will land on the Just Read the Instructions droneship, which will be stationed in the Atlantic Ocean.Launch January 28B1090-10
SpaceX’s Falcon 9 is targeting the launch of 29 Starlink satellites to low-Earth orbit from Space Launch Complex 40 (SLC-40) at Cape Canaveral Space Force Station in Florida.A live webcast of this mission will begin about five minutes prior to liftoff, which you can watch here and on X @SpaceX. You can also watch the webcast on the X TV app.This will be the 10th flight for the first stage booster supporting this mission, which previously launched SES O3b mPOWER-E, Crew-10, Bandwagon-3, mPOWER-D, CRS-33, and four Starlink missions. Following stage separation, the first stage will land on the Just Read the Instructions droneship, which will be stationed in the Atlantic Ocean.
The next SpaceX Falcon 9 rocket will launch a Starlink batch from pad 40 on January 14 at 1:08-5:01 p.m. EST. A Falcon 9 will launch a Starlink batch from pad 40 on January 18 at 5:04-9:04 p.m. EST. A Falcon will launch the next GPS satellite for the U.S. Space Force from pad 40 on TBD. A Falcon 9 will launch a Starlink batch from pad 40 on January 28. Upcoming launches include more Starlink batches from pad 40. A Falcon 9 will launch Crew-12 to the International Space Station from pad 40 on early-mid February, around or before dawn EST. The first stage will land back at the Cape about eight minutes after launch.
The next SpaceX Falcon 9 rocket will launch a Starlink batch from pad 40 on January 18 at 5:04-9:04 p.m. EST. A Falcon will launch the next GPS satellite for the U.S. Space Force from pad 40 on TBD. Upcoming launches include more Starlink batches from pad 40. A Falcon 9 will launch Crew-12 to the International Space Station from pad 40 on early-mid February, around or before dawn EST. The first stage will land back at the Cape about eight minutes after launch.
Quote from: catdlr on 01/16/2026 02:06 amQuoteSpaceX is targeting Friday, January 16 for a Falcon 9 launch of the NROL-105 mission from Space Launch Complex 4E (SLC-4E) at Vandenberg Space Force Base in California. The 35-minute launch window opens at 8:18 p.m. PT with a backup opportunity available at 8:04 p.m. PT on Saturday, January 17.A live webcast of the NROL-105 mission will begin about 10 minutes prior to liftoff, which you can watch here and on X @SpaceX. You can also watch the webcast on the X TV app.This is the second flight for the first stage booster supporting this mission, which previously launched one Starlink mission. Following stage separation, the first stage will land on Landing Zone 4 (LZ-4) at Vandenberg Space Force Base.There is the possibility that residents of Santa Barbara, San Luis Obispo, and Ventura counties may hear one or more sonic booms during the launch, but what residents experience will depend on weather and other conditions.17 January 04:18 to 04:53 UTC = 16 January 8:18 to 8:53 pm PSTB1100-2
QuoteSpaceX is targeting Friday, January 16 for a Falcon 9 launch of the NROL-105 mission from Space Launch Complex 4E (SLC-4E) at Vandenberg Space Force Base in California. The 35-minute launch window opens at 8:18 p.m. PT with a backup opportunity available at 8:04 p.m. PT on Saturday, January 17.A live webcast of the NROL-105 mission will begin about 10 minutes prior to liftoff, which you can watch here and on X @SpaceX. You can also watch the webcast on the X TV app.This is the second flight for the first stage booster supporting this mission, which previously launched one Starlink mission. Following stage separation, the first stage will land on Landing Zone 4 (LZ-4) at Vandenberg Space Force Base.There is the possibility that residents of Santa Barbara, San Luis Obispo, and Ventura counties may hear one or more sonic booms during the launch, but what residents experience will depend on weather and other conditions.
SpaceX is targeting Friday, January 16 for a Falcon 9 launch of the NROL-105 mission from Space Launch Complex 4E (SLC-4E) at Vandenberg Space Force Base in California. The 35-minute launch window opens at 8:18 p.m. PT with a backup opportunity available at 8:04 p.m. PT on Saturday, January 17.A live webcast of the NROL-105 mission will begin about 10 minutes prior to liftoff, which you can watch here and on X @SpaceX. You can also watch the webcast on the X TV app.This is the second flight for the first stage booster supporting this mission, which previously launched one Starlink mission. Following stage separation, the first stage will land on Landing Zone 4 (LZ-4) at Vandenberg Space Force Base.There is the possibility that residents of Santa Barbara, San Luis Obispo, and Ventura counties may hear one or more sonic booms during the launch, but what residents experience will depend on weather and other conditions.
And per SpaceX's mission page this has slipped all the way till February 11. Either to accommodate moving up the launch of Dragon Crew-12 (which would mean moving up by at least 1 week), or booster landing in Bahamas' paperwork is still not closed, or both.
Quote from: StraumliBlight on 12/12/2025 07:29 pmSES-STA-20251209-01010 [Dec 9]This launch is now NET Mid-FebruaryQuote3rd 180-day STA for Fairbanks, AK Earth Station for LEOPS for NGC-supplied USPWSA-T1TL SatellitesQuoteKongsberg Satellite Services AS (“KSAT”) requests an additional 180-day special temporary authorization (“STA”)1 for its earth station in Fairbanks, Alaska (“Station”) in order to support launch and early orbit-phase operations (“LEOPs”) of USPWSA-T1TL satellites supplied by Northrop Grumman Corporation (“Satellites”) for the U.S. Space Development Agency (“SDA”). The first launch for the Satellites is currently scheduled for mid-February 2026.KSAT respectfully requests that the STA be granted by February 13, 2026 for a term of February 13, 2026 to August 11, 2026. Grant of this STA request is mission-critical to the commissioning of these Satellites for SDA.QuoteThe Satellites will be launched in two batches, 21 satellites per launch. The second launch may occur within the term of this STA or will be covered in a subsequent STA request. LEOPs for the Satellites is expected to take 90 to 120 days post-launch.The Satellites are expected to be in a 995.26 km circular non-geostationary orbit, inclined at 81.28 degrees.
SES-STA-20251209-01010 [Dec 9]This launch is now NET Mid-FebruaryQuote3rd 180-day STA for Fairbanks, AK Earth Station for LEOPS for NGC-supplied USPWSA-T1TL Satellites
3rd 180-day STA for Fairbanks, AK Earth Station for LEOPS for NGC-supplied USPWSA-T1TL Satellites
Kongsberg Satellite Services AS (“KSAT”) requests an additional 180-day special temporary authorization (“STA”)1 for its earth station in Fairbanks, Alaska (“Station”) in order to support launch and early orbit-phase operations (“LEOPs”) of USPWSA-T1TL satellites supplied by Northrop Grumman Corporation (“Satellites”) for the U.S. Space Development Agency (“SDA”). The first launch for the Satellites is currently scheduled for mid-February 2026.KSAT respectfully requests that the STA be granted by February 13, 2026 for a term of February 13, 2026 to August 11, 2026. Grant of this STA request is mission-critical to the commissioning of these Satellites for SDA.
The Satellites will be launched in two batches, 21 satellites per launch. The second launch may occur within the term of this STA or will be covered in a subsequent STA request. LEOPs for the Satellites is expected to take 90 to 120 days post-launch.The Satellites are expected to be in a 995.26 km circular non-geostationary orbit, inclined at 81.28 degrees.
Aviation Week [5 Aug 2025] is reporting this launch is in Q2 2026 per the attached photo.The following quotes are from the FY26 Space Force RDT&E PBR.FY 2025 Plans:QuoteBuild on the VICTUS SOL satellite vehicle and ground investments made with prior year funding to initiatethe associated responsive launch service for VICTUS SOL in FY 2025 that could enable launch in the first half of FY 2026.FY 2026 Plans:QuoteSupport the development, readiness, launch, and operations for the VICTUS HAZE, VICTUS SOL and other VICTUS missions.Congressional Add to FY 2025 Plans:Quote: This Congressional Add funding is being used to acquire long-lead parts for the second VICTUS SALO pre-positioned fly-by space vehicle (SV), develop and implement operational crew procedures, and establish dedicated operational crews for the VICTUS SOL, VICTUS SURGO, and VICTUS SALO missions, and conduct VICTUS SOL vehicle pre-flight testing and flight dress rehearsals.
Build on the VICTUS SOL satellite vehicle and ground investments made with prior year funding to initiatethe associated responsive launch service for VICTUS SOL in FY 2025 that could enable launch in the first half of FY 2026.
Support the development, readiness, launch, and operations for the VICTUS HAZE, VICTUS SOL and other VICTUS missions.
: This Congressional Add funding is being used to acquire long-lead parts for the second VICTUS SALO pre-positioned fly-by space vehicle (SV), develop and implement operational crew procedures, and establish dedicated operational crews for the VICTUS SOL, VICTUS SURGO, and VICTUS SALO missions, and conduct VICTUS SOL vehicle pre-flight testing and flight dress rehearsals.
Starlink G6-100 Pre-Launch Derived from a pre-launch Starlink-G6-100 state vector, provided by SpaceX. SupGP data is provided for the entire stack, as well as one for a single satellite.✅️ Launch: 2026-01-18 23:31:40 UTC.Deploy: 2026-01-19 00:36:44.520 UTC.
https://celestrak.org/NORAD/elements/supplemental/Supplemental GP Element SetsCurrent as of 2026 Jan 21 06:17:00 UTC (Day 021)QuoteStarlink G17-30 Pre-Launch Derived from a pre-launch Starlink-G17-30 state vector, provided by SpaceX. SupGP data is provided for the entire stack, as well as one for a single satellite.Launch: 2026-01-22 02:46:30 UTC.Deploy: 2026-01-22 03:48:49.000 UTC.Launch window: 2026-01-22 02:46:30 UTC to 2026-01-22 02:47:49 UTC.Backup Launch Opportunity #1 Launch: 2026-01-22 02:48:30 UTC.Deploy: 2026-01-22 03:50:49.000 UTC.Launch window: 2026-01-22 02:48:30 UTC to 2026-01-22 02:48:39 UTC.Backup Launch Opportunity #2 Launch: 2026-01-22 02:55:20 UTC.Deploy: 2026-01-22 03:57:39.000 UTC.Launch window: 2026-01-22 02:55:20 UTC to 2026-01-22 02:55:29 UTC.Backup Launch Opportunity #3 Launch: 2026-01-22 02:55:30 UTC.Deploy: 2026-01-22 03:57:49.000 UTC.Launch window: 2026-01-22 02:55:30 UTC to 2026-01-22 02:56:19 UTC.Backup Launch Opportunity #4 Launch: 2026-01-22 03:39:00 UTC.Deploy: 2026-01-22 04:41:19.000 UTC.Launch window: 2026-01-22 03:39:00 UTC to 2026-01-22 03:41:39 UTC.Backup Launch Opportunity #5 Launch: 2026-01-22 03:41:40 UTC.Deploy: 2026-01-22 04:43:59.000 UTC.Launch window: 2026-01-22 03:41:40 UTC to 2026-01-22 03:44:19 UTC.Backup Launch Opportunity #6 Launch: 2026-01-22 03:49:20 UTC.Deploy: 2026-01-22 04:51:39.000 UTC.Launch window: 2026-01-22 03:49:20 UTC to 2026-01-22 03:53:29 UTC.Backup Launch Opportunity #7 Launch: 2026-01-22 03:53:30 UTC.Deploy: 2026-01-22 04:55:49.000 UTC.Launch window: 2026-01-22 03:53:30 UTC to 2026-01-22 03:54:49 UTC.Backup Launch Opportunity #8 Launch: 2026-01-22 03:56:20 UTC.Deploy: 2026-01-22 04:58:39.000 UTC.Launch window: 2026-01-22 03:56:20 UTC to 2026-01-22 03:57:09 UTC.Backup Launch Opportunity #9 Launch: 2026-01-22 03:57:10 UTC.Deploy: 2026-01-22 04:59:29.000 UTC.Launch window: 2026-01-22 03:57:10 UTC to 2026-01-22 04:01:59 UTC.Backup Launch Opportunity #10 Launch: 2026-01-22 04:02:20 UTC.Deploy: 2026-01-22 05:04:39.000 UTC.Launch window: 2026-01-22 04:02:20 UTC to 2026-01-22 04:03:49 UTC.
Starlink G17-30 Pre-Launch Derived from a pre-launch Starlink-G17-30 state vector, provided by SpaceX. SupGP data is provided for the entire stack, as well as one for a single satellite.Launch: 2026-01-22 02:46:30 UTC.Deploy: 2026-01-22 03:48:49.000 UTC.Launch window: 2026-01-22 02:46:30 UTC to 2026-01-22 02:47:49 UTC.Backup Launch Opportunity #1 Launch: 2026-01-22 02:48:30 UTC.Deploy: 2026-01-22 03:50:49.000 UTC.Launch window: 2026-01-22 02:48:30 UTC to 2026-01-22 02:48:39 UTC.Backup Launch Opportunity #2 Launch: 2026-01-22 02:55:20 UTC.Deploy: 2026-01-22 03:57:39.000 UTC.Launch window: 2026-01-22 02:55:20 UTC to 2026-01-22 02:55:29 UTC.Backup Launch Opportunity #3 Launch: 2026-01-22 02:55:30 UTC.Deploy: 2026-01-22 03:57:49.000 UTC.Launch window: 2026-01-22 02:55:30 UTC to 2026-01-22 02:56:19 UTC.Backup Launch Opportunity #4 Launch: 2026-01-22 03:39:00 UTC.Deploy: 2026-01-22 04:41:19.000 UTC.Launch window: 2026-01-22 03:39:00 UTC to 2026-01-22 03:41:39 UTC.Backup Launch Opportunity #5 Launch: 2026-01-22 03:41:40 UTC.Deploy: 2026-01-22 04:43:59.000 UTC.Launch window: 2026-01-22 03:41:40 UTC to 2026-01-22 03:44:19 UTC.Backup Launch Opportunity #6 Launch: 2026-01-22 03:49:20 UTC.Deploy: 2026-01-22 04:51:39.000 UTC.Launch window: 2026-01-22 03:49:20 UTC to 2026-01-22 03:53:29 UTC.Backup Launch Opportunity #7 Launch: 2026-01-22 03:53:30 UTC.Deploy: 2026-01-22 04:55:49.000 UTC.Launch window: 2026-01-22 03:53:30 UTC to 2026-01-22 03:54:49 UTC.Backup Launch Opportunity #8 Launch: 2026-01-22 03:56:20 UTC.Deploy: 2026-01-22 04:58:39.000 UTC.Launch window: 2026-01-22 03:56:20 UTC to 2026-01-22 03:57:09 UTC.Backup Launch Opportunity #9 Launch: 2026-01-22 03:57:10 UTC.Deploy: 2026-01-22 04:59:29.000 UTC.Launch window: 2026-01-22 03:57:10 UTC to 2026-01-22 04:01:59 UTC.Backup Launch Opportunity #10 Launch: 2026-01-22 04:02:20 UTC.Deploy: 2026-01-22 05:04:39.000 UTC.Launch window: 2026-01-22 04:02:20 UTC to 2026-01-22 04:03:49 UTC.
https://www.cadenaois.org/vpublic_anspdetail.jsp?view=15QuotePrimary Launch Day 26 JAN 0438Z-0556ZBackup Launch Day 27 JAN 0434Z-0552ZBackup Launch Day 28 JAN 0430Z-0548ZBackup Launch Day 29 JAN 0426Z-0544ZBackup Launch Day 30 JAN 0422Z-0540ZBackup Launch Day 31 JAN 0417Z-0535ZBackup Launch Day 01 FEB 0413Z-0531ZNOTAM #: A0339/26QuoteIssue Date UTC: 01/20/2026 0844Start Date UTC: 01/26/2026 1109End Date UTC: 02/01/2026 1054A0339/26 NOTAMN Q) FAJO/QWMLW/IV/BO/W/000/999/4852S00300E999A) FAJO B) 2601261109 C) 2602011054D) 26 JAN 1109-1219, 27 JAN 1105-1215, 28 JAN 1101-1211, 29 JAN 1057-1207, 30 JAN 1053-1203, 31 JAN 1048-1158, 01 FEB 1044-1054E) AREA BOUNDED BY (4542S 02044E, 4339S 02236E, 5117S 04051E, 5320S 03840E): SPACEX GPS III-9 STAGE 2 ROCKET REENTRY TAKING PLACE.APPLICABLE AIRSPACE DOWNGRADED TO CLASS G.F) SFC G) UNL
Primary Launch Day 26 JAN 0438Z-0556ZBackup Launch Day 27 JAN 0434Z-0552ZBackup Launch Day 28 JAN 0430Z-0548ZBackup Launch Day 29 JAN 0426Z-0544ZBackup Launch Day 30 JAN 0422Z-0540ZBackup Launch Day 31 JAN 0417Z-0535ZBackup Launch Day 01 FEB 0413Z-0531Z
Issue Date UTC: 01/20/2026 0844Start Date UTC: 01/26/2026 1109End Date UTC: 02/01/2026 1054A0339/26 NOTAMN Q) FAJO/QWMLW/IV/BO/W/000/999/4852S00300E999A) FAJO B) 2601261109 C) 2602011054D) 26 JAN 1109-1219, 27 JAN 1105-1215, 28 JAN 1101-1211, 29 JAN 1057-1207, 30 JAN 1053-1203, 31 JAN 1048-1158, 01 FEB 1044-1054E) AREA BOUNDED BY (4542S 02044E, 4339S 02236E, 5117S 04051E, 5320S 03840E): SPACEX GPS III-9 STAGE 2 ROCKET REENTRY TAKING PLACE.APPLICABLE AIRSPACE DOWNGRADED TO CLASS G.F) SFC G) UNL
The next SpaceX Falcon 9 rocket will launch the next GPS satellite for the U.S. Space Force from pad 40 on January 25 around 11:38 p.m. EST. A Falcon 9 will launch a Starlink batch from pad 40 on January 28 at 9:14 p.m. - 1:14 a.m. EST. A Falcon 9 will launch a Starlink batch from pad 40 on January 31 at 6:36-10:36 p.m. EST. A Falcon 9 will launch Crew-12 to the International Space Station from pad 40 on early-mid February, around or before dawn EST. The first stage will land back at the Cape about eight minutes after launch.
https://www.spacex.com/launches/sl-6-101QuoteSpaceX’s Falcon 9 is targeting the launch of 29 Starlink satellites to low-Earth orbit from Space Launch Complex 40 (SLC-40) at Cape Canaveral Space Force Station in Florida.A live webcast of this mission will begin about five minutes prior to liftoff, which you can watch here and on X @SpaceX. You can also watch the webcast on the X TV app.This will be the 10th flight for the first stage booster supporting this mission, which previously launched SES O3b mPOWER-E, Crew-10, Bandwagon-3, mPOWER-D, CRS-33, and four Starlink missions. Following stage separation, the first stage will land on the Just Read the Instructions droneship, which will be stationed in the Atlantic Ocean.Launch 29 January 02:14 to 06:14 UTC = 28 January 21:14 to 29 January 01:14 EST B1090-10https://www.cadenaois.org/vpublic_anspdetail.jsp?view=15QuotePrimary Launch Day 29 JAN 0214Z-0657ZBackup Launch Day 30 JAN 0148Z-0631ZBackup Launch Day 31 JAN 0122Z-0605ZBackup Launch Day 01 FEB 0056Z-0539ZBackup Launch Day 02 FEB 0029Z-0512ZBackup Launch Day 03 FEB 0003Z-0446ZBackup Launch Day 03 FEB 2337Z-0420Z
Primary Launch Day 29 JAN 0214Z-0657ZBackup Launch Day 30 JAN 0148Z-0631ZBackup Launch Day 31 JAN 0122Z-0605ZBackup Launch Day 01 FEB 0056Z-0539ZBackup Launch Day 02 FEB 0029Z-0512ZBackup Launch Day 03 FEB 0003Z-0446ZBackup Launch Day 03 FEB 2337Z-0420Z
https://www.spacex.com/launches/sl-17-19QuoteSpaceX’s Falcon 9 is targeting the launch of 25 Starlink satellites to low-Earth orbit from Space Launch Complex 4 East (SLC-4E) from Vandenberg Space Force Base in California.A live webcast of this mission will begin about five minutes prior to liftoff, which you can watch here and on X @SpaceX. You can also watch the webcast on the X TV app.This is the sixth flight for the first stage booster supporting this mission, which previously launched Sentinel-6B and three Starlink missions. Following stage separation, the first stage will land on the Of Course I Still Love You droneship, which will be stationed in the Pacific Ocean.There is the possibility that residents of Santa Barbara, San Luis Obispo, and Ventura counties may hear one or more sonic booms during the launch, but what residents experience will depend on weather and other conditions.29 January 15:17 to 19:17 UTC = 7:17 - 11:17 am PSTB1097-6https://www.cadenaois.org/vpublic_anspdetail.jsp?view=15QuotePrimary Launch Day 29 JAN 1517Z-2000ZBackup Launch Day 30 JAN 1517Z-2000ZBackup Launch Day 31 JAN 1517Z-2000ZBackup Launch Day 01 FEB 1517Z-2000ZBackup Launch Day 02 FEB 1517Z-2000ZBackup Launch Day 03 FEB 1517Z-2000ZBackup Launch Day 04 FEB 1517Z-2000Z
SpaceX’s Falcon 9 is targeting the launch of 25 Starlink satellites to low-Earth orbit from Space Launch Complex 4 East (SLC-4E) from Vandenberg Space Force Base in California.A live webcast of this mission will begin about five minutes prior to liftoff, which you can watch here and on X @SpaceX. You can also watch the webcast on the X TV app.This is the sixth flight for the first stage booster supporting this mission, which previously launched Sentinel-6B and three Starlink missions. Following stage separation, the first stage will land on the Of Course I Still Love You droneship, which will be stationed in the Pacific Ocean.There is the possibility that residents of Santa Barbara, San Luis Obispo, and Ventura counties may hear one or more sonic booms during the launch, but what residents experience will depend on weather and other conditions.
Primary Launch Day 29 JAN 1517Z-2000ZBackup Launch Day 30 JAN 1517Z-2000ZBackup Launch Day 31 JAN 1517Z-2000ZBackup Launch Day 01 FEB 1517Z-2000ZBackup Launch Day 02 FEB 1517Z-2000ZBackup Launch Day 03 FEB 1517Z-2000ZBackup Launch Day 04 FEB 1517Z-2000Z
https://www.spacex.com/launches/sl-6-103QuoteSpaceX’s Falcon 9 is targeting the launch of 29 Starlink satellites to low-Earth orbit from Space Launch Complex 40 (SLC-40) at Cape Canaveral Space Force Station in Florida.A live webcast of this mission will begin about five minutes prior to liftoff, which you can watch here and on X @SpaceX. You can also watch the webcast on the X TV app.This will be the fifth flight for the first stage booster supporting this mission, which previously launched four Starlink missions. Following stage separation, the first stage will land on the A Shortfall of Gravitas droneship, which will be stationed in the Atlantic Ocean.Launch 31 January 23:37 to 1 February 03:37 = 31 January 6:37 to 10:37 pm EST (time deduced from launch video scheduling)B1095-5
SpaceX’s Falcon 9 is targeting the launch of 29 Starlink satellites to low-Earth orbit from Space Launch Complex 40 (SLC-40) at Cape Canaveral Space Force Station in Florida.A live webcast of this mission will begin about five minutes prior to liftoff, which you can watch here and on X @SpaceX. You can also watch the webcast on the X TV app.This will be the fifth flight for the first stage booster supporting this mission, which previously launched four Starlink missions. Following stage separation, the first stage will land on the A Shortfall of Gravitas droneship, which will be stationed in the Atlantic Ocean.
https://www.spacex.com/launches/sl-17-32QuoteSpaceX’s Falcon 9 is targeting the launch of 24 Starlink satellites to low-Earth orbit from Space Launch Complex 4 East (SLC-4E) from Vandenberg Space Force Base in California.A live webcast of this mission will begin about five minutes prior to liftoff, which you can watch here and on X @SpaceX. You can also watch the webcast on the X TV app.This is the 31st flight for the first stage booster supporting this mission, which previously launched NROL-87, NROL-85, SARah-1, SWOT, Transporter-8, Transporter-9, NROL-146, Bandwagon-2, NROL-153, NROL-192, Transporter-14, Transporter-15, and 18 Starlink missions. Following stage separation, the first stage will land on the Of Course I Still Love You droneship, which will be stationed in the Pacific Ocean.There is the possibility that residents of Santa Barbara, San Luis Obispo, and Ventura counties may hear one or more sonic booms during the launch, but what residents experience will depend on weather and other conditions.Launch 2 February 12:17 to 16:17 UTC = 4:17 to 8:17 am PST (time deduced from launch video scheduling)B1071-31
SpaceX’s Falcon 9 is targeting the launch of 24 Starlink satellites to low-Earth orbit from Space Launch Complex 4 East (SLC-4E) from Vandenberg Space Force Base in California.A live webcast of this mission will begin about five minutes prior to liftoff, which you can watch here and on X @SpaceX. You can also watch the webcast on the X TV app.This is the 31st flight for the first stage booster supporting this mission, which previously launched NROL-87, NROL-85, SARah-1, SWOT, Transporter-8, Transporter-9, NROL-146, Bandwagon-2, NROL-153, NROL-192, Transporter-14, Transporter-15, and 18 Starlink missions. Following stage separation, the first stage will land on the Of Course I Still Love You droneship, which will be stationed in the Pacific Ocean.There is the possibility that residents of Santa Barbara, San Luis Obispo, and Ventura counties may hear one or more sonic booms during the launch, but what residents experience will depend on weather and other conditions.
